Corpus expansion system and method thereof

ABSTRACT

A system and method for expanding new sample seeds to automatically expand corpora, in which sample seeds are used to collect corpus is provided. The new sample seeds are generated based on the already existed sample seeds and collected corpora; The corpus expansion strategy is determined based on all the sample seeds having been used and new sample seeds: The new sample seeds are refmed based on the corpus expansion strategy, and the refmed new sample seeds are used to further collect corpus. The above steps are repeatedly executed until predefined condition is satisfied. According to the invention, corpus may be automatically expanded from the web or other resources with low cost and in convenient way to improve the coverage of corpora.

FIELD OF THE INVENTION

The present invention relates to the field of information extraction,knowledge mining and other natural language processing applications,especially to a corpus expansion system and method for expanding corpusbased on which the machine learning method is executed.

BACKGROUND OF THE INVENTION

Typically, the corpora collected manually or automatically are analyzedwith the machine learning method to generate the classifier models of acertain specific class to be used in information extraction, knowledgemining and other natural language processing applications.

In the task-oriented or domain-oriented natural language processingapplications, such as domain-specific information extraction and namedentity recognition, collecting corpora with extensive coverage andtagging the collected corpora are the important factors for improvingthe recognition accuracy.

There exist some methods for automatically collecting and taggingcorpus. In these methods, corpora are collected from the web or otherresources by a search engine based on some sample seeds. However, inthese existing methods, the corpus coverage is completely dependent onthe limited initial sample seeds. Therefore, it is required to collectricher corpus based on more sample seeds.

SUMMARY OF THE INVENTION

To solve the problems mentioned above in the prior art, an object of theinvention is to provide a system and method for automatically expandingcorpus by expanding new sample seeds.

To obtain the above object, the present invention provides a corpusexpansion system, comprising: a corpus collection unit, for collectingcorpus using sample seeds; a sample seed expansion unit, for generatingnew sample seeds, based on the sample seeds having been used by thecorpus collection unit and the collected corpora; a balancing unit, fordetermining a corpus expansion strategy based on all the sample seedshaving been used by the corpus collection unit and the new sample seeds;a refining unit, for refining the new sample seeds based on the corpusexpansion strategy.

The present invention further provides a corpus expansion method,comprising: collecting corpus using sample seeds; generating new sampleseeds, based on the sample seeds having been used and the collectedcorpora; determining a corpus expansion strategy based on all the sampleseeds having been used and the new sample seeds; refining the new sampleseeds based on the corpus expansion strategy; repeating the above stepsuntil a predefined condition reaches.

According to the invention, corpus can be automatically expanded fromthe web or other resources with low cost and in convenient way.

According to the invention, the coverage of corpus may be improved.

According to the invention, the quality of pre-tagging corpus may beimproved by using the sample seeds automatically expanded in buildingthe annotated corpus.

These and other advantages of the invention will be more apparent by thedetailed description of the preferred embodiments of the invention, withreference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows the schematic block of the corpus expansion systemaccording to the first embodiment of the invention.

FIG. 2 shows the general flow chart of the corpus expansion processaccording to the first embodiment of the invention.

FIG. 3 shows the structural block of the sample seed expansion unitaccording to the first embodiment of the invention.

FIG. 4 shows the flow chart of the sample seed expansion processaccording to the first embodiment of the invention.

FIG. 5 shows the flow chart of the sample seed expansion process basedon linguistic structure analysis according to the first embodiment ofthe invention.

FIG. 6 shows the flow chart of the sample seed expansion process basedon the available seed annotators according to the first embodiment ofthe invention.

FIG. 7 shows the flow chart of determining whether to expand sampleseeds for a class according to the first embodiment of the invention.

FIG. 8 shows the flow chart of determining the candidate sample seedsneed to be deleted according to the first embodiment of the invention.

FIG. 9 shows the flow chart of refining the sample seed according to thefirst embodiment of the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

The method and system according to the invention will be described withthe named entity recognition as example. However, it will be apparentfor the persons in the art that the method and system according to theinvention can be applied to other similar fields such as nominal entityrecognition, relationship recognition and information extraction.

The terms used in the invention will be explained first.

Specific field: the particular field where corpus is collected, such asfinancial field, sports field, and entertainment field. Named entityclass under specific field (hereinafter named as class): the classhaving practical meaning defined under the specific field whencollecting corpus for the specific field. For example, the classes underthe banking field are classified as bank name class, representative nameclass, city name class.

Named entity: a word sequence representing an entity name that has thepractical meaning in each of the classes under specific class, such asspecific bank name, person's name, place name.

Sample seed: the sample of named entity in specific field, for example,certain bank name, person's name, place name. the sample seed is usedfor searching resources when collecting corpus.

Corpus: a segment in a natural language including one or more sampleseeds, such as an article or a snippet.

Raw corpus: corpus having not any annotation.

Corpus collection condition: the condition required when collectingcorpus. Only the corpus satisfying the condition can be collected. Forexample, the condition includes the class such as the financial class,the sports class or other class; the document type such as WORD file,PDF file or other types; the language used by the corpus; the maximumnumber of the collected corpora; whether a corpus is a snippet or thewhole document; the URL limitation on corpus.

Sample seed list: similar sample seeds in each of the classes underspecific field are associatively stored. For example, several specificbank names in the bank class under financial field are similar sampleseeds. These sample seeds compose one sample seed list with each recordincluding the sample seed and the class the sample seed belongs to.According to the invention, the sample seed list consists of the sampleseeds used when initially collecting corpus and the new sample seedsexpanded according to the invention. That is, the sample seed listincludes all the sample seeds ever used when collecting corpus.

New candidate sample seed list: the list including new sample seedsexpanded according to the invention that have not been balanced andrefined.

New sample seed list: the list including new sample seeds expandedaccording to the invention that have been balanced and refined.According to the invention, the new sample seeds in the new sample seedlist are used for the resource searching when collecting corpus.

Corpus expansion strategy: the strategy used when expanding corpus forthe corpora currently collected. For example, the strategy is theinformation about in which class under which field corpus need to beexpanded; or the strategy is the information about which sample seed(s)need to be deleted from the collected new sample seeds.

The following description is based on the following assumption: corpusand the sample seeds are expanded for a certain field.

FIG. 1 shows the schematic block of the corpus expansion systemaccording to the first embodiment of the invention. The corpus expansionsystem according to the invention in one embodiment comprises the corpusexpansion apparatus 1 and the storage apparatus 2. The corpus expansionapparatus 1 comprises the corpus collection unit 101, the sample seedexpansion unit 110, the balancing unit 120, the refining unit 130 andthe determining unit 145. The storage apparatus 2 comprises the rawcorpus storing unit 105, the new candidate sample seed list storing unit115, the new sample seed list storing unit 125, the corpus expansionstrategy storing unit 135, the corpus collection condition storing unit140 and the sample seed list storing unit 155. The raw corpus storingunit 105 stores all the raw corpora collected by the corpus collectionunit 101, that is, the corpora having not any annotation. The newcandidate sample seed list storing unit 115 stores the new candidatesample seed list generated by the sample seed expansion unit 110.

The new sample seed list storing unit 125 stores the list of the newsample seeds obtained after the refining unit 130 refines the newcandidate sample seeds. When the system is initiated, the new sampleseed list storing unit 125 stores the sample seeds used when the corpusis collected at the first time. The corpus expansion strategy storingunit 135 stores the corpus expansion strategy generated by the balancingunit 120.

The corpus collection condition storing unit 140 stores the corpuscollection condition. During the system initiation and the followingcorpus expansion operation, the corpus collection condition used incollecting corpus can be input manually. The sample seed list storingunit 155 stores the list of all the sample seeds expanded according tothe invention. When the system is initiated, the sample seed liststoring unit stores the sample seeds when corpus is initially collected.Every time the new sample seed is expanded, it is added to the sampleseed list storing unit 155.

The function of the blocks of the corpus expansion system will bedescribed by describing the corpus expansion process according to theinvention. FIG. 2 shows the general flow chart of the corpus expansionprocess according to the invention. Firstly, in step S201, the corpuscollection unit 101 collects the initial corpora from the web or otherexternal resources by using known art, based on the initial sample seedsstored in the new sample seed list storing unit 125 and the corpuscollection condition stored in the corpus collection condition storingunit 140, and stores the corpora into the raw corpus storing unit 105.In the collected raw corpora, the sample seeds are not tagged.

The method for collecting corpus may be as follows: the new sample seedsare used as the search keywords and submitted to the web search engineor other search system of external resource; the results are obtainedafter searching which include the storing address (e.g., URL) of thenatural language snippets or articles including the keywords; theresults are filtered based on the corpus collection condition; thenatural language snippets or articles satisfying the condition aredownloaded to the local system and stored in the raw corpus storing unit105.

In step S205, the sample seed expansion unit 110 extracts the newcandidate sample seeds from all the currently available raw corporastored in the raw corpus storing unit 105, based on the later describedmethod, and associates the extracted new candidate sample seeds with thecorresponding class of specific field to generate a list and stores thelist into the new candidate sample seed list storing unit 115.

In step S210, the balancing unit 120 analyzes the distribution of thesample seeds stored in the sample seed list storing unit 155 and the newcandidate sample seed list storing unit 125, to generate the corpusexpansion strategy, and stores the strategy into the corpus expansionstrategy unit 135.

In step S215, the refining unit 130 refmes the candidate sample seedsstored in the new candidate sample seed list storing unit 115, based onthe corpus expansion strategy stored in the corpus expansion strategystoring unit 135, to generate the new sample seed list, stores the listinto the new sample seed list storing unit 125, and adds the new sampleseeds into the sample seed list storing unit 155.

In step S220, the determining unit 145 determines whether the predefinedcorpus collection end condition is satisfied. When the condition issatisfied, it proceeds to the step S230 where the corpus collection unitstops the expansion of corpus. Otherwise, it proceeds to the step S225.The predefined condition, for example, is when the sample seed expansionunit 110 does not expand any new sample seeds, or when the ratio of thenumber of new sample seeds to the number of the sample seeds inexpanding corpus last time is less than a specific value, or when thenumber of the raw corpora stored in the raw corpus storing unit 105reaches to a certain value.

In step S225, the corpus collection unit 101 collects the new corporabased on the expanded new sample seeds stored in the new sample seedlist storing unit 125 and the corpus collection condition stored in thecorpus collection condition storing unit 140, combines the collected newcorpora and the raw corpora stored in the corpus storing unit 105 andstores the combined ones into the corpus storing unit 105.

And then it returns to the step S205 to continue the process.

The process of the sample seed expansion unit 110 will be described now.

FIG. 3 shows the structure of the sample seed expansion unit 110.

In FIG. 3, the parts which are the same as FIG. 1 have the samereference numerals as FIG. 1. The sample seed expansion unit 110comprises the linguistic structure analysis based sample seed expansionunit 301, the seed annotator based sample seed expansion unit 305 andthe new candidate sample seed combination unit 310.

FIG. 4 shows the process of sample seed expansion according to thesample seed expansion unit 110 of the invention. In step 401, thelinguistic structure analysis based sample seed expansion unit 301expands to generate new candidate sample seeds, and provides thegenerated new candidate sample seeds to the new candidate sample seedcombination unit 310. In step 405, the seed annotator based sample seedexpansion unit 305 expands to generate new candidate sample seeds, andprovides the generated new candidate sample seeds to the new candidatesample seed combination unit 310. In step S410, the new candidate sampleseed combination unit 310 combines the new candidate sample seedsgenerated in the step S401 and the step S405 to generate the newcandidate sample seed list and store the new candidate sample seed listinto the new candidate sample seed list storing unit 115.

Taking a raw corpus as an example, the process procedure of thelinguistic structure analysis based sample seed expansion unit 301 willbe described now.

In FIG. 5, in step S501, the initial sample seeds are tagged by tags forall the collected raw corpora having not been tagged in the raw corpusstoring unit 105. The initial sample seeds are the sample seeds storedin the sample seed list storing unit 155. The tagged corpora are storedin a storing unit not shown.

In step S505, all the coordinate syntactic structures which contain theinitial sample seeds are extracted from the tagged corpora using theknown linguistic rule database. For example, the coordinate syntacticstructures with the conjunction words such as “and”, “such as”, “etc.”or punctuations are extracted from the sentences in the corpora based onthe coordinate syntactic rules. The coordinate syntactic structure, forexample, is a snippet including initial sample seed(s) and some contenton the left and the right of the initial sample seed(s).

In Step S510, all the new candidate sample seeds are extracted from theextracted coordinate syntactic structures. In step S515, the newcandidate sample seeds extracted from the tagged corpora are furthertagged by using the same tags as that of the initial sample seeds in theextracted coordinate syntactic structures. In step S520, the extractednew candidate sample seeds are provided to the new candidate sample seedcombination unit 310.

The process procedure of the seed annotator based sample seed expansionunit 305 will be described now. As shown in FIG. 6, in step S601, allthe raw corpora collected by the corpora collection unit 101 areautomatically tagged by using a seed annotator to tag the sample seeds.The tagged corpora are stored in a storing unit not shown.

The seed annotation may be an independent known means which canautomatically tag entities appeared in a raw corpus, or be a seedannotator obtained through machine learning based on the currentlycollected corpora. In the later case, the step S601 executes thefollowing process: firstly, the initial sample seeds in the raw corporanot tagged in the raw corpus storing unit 105 are tagged by tags, inwhich the initial sample seeds are the sample seeds stored in the sampleseed list storing unit 155; then, the tagged corpora are supplied to theknown machine learning module to train a seed annotator; lastly, theentity annotator obtained after training is used to recognize the rawcorpora to get the corpora being tagged.

In step S605, the tagged sample seeds are extracted from theautomatically tagged corpora. In step S610, the sample seeds exceptthose in the sample seed list storing unit 155 are extracted from theextracted tagged sample seeds, as the new candidate sample seeds. Itwill be apparent for the persons in the art that the recognition resultof the above seed annotator will be different from the sample seedsstored in the sample seed list storing unit 155. In step S615, theextracted new candidate sample seeds are provided to the new candidatesample seed combination unit 310. The sample seeds may be effectivelyexpanded through the process of the above FIGS. 4 to 6.

The operations of refining the new candidate sample seeds and refiningthe corpus expansion strategy according to the invention will bedescribed. The imbalanced corpus will bring many difficulties to machinelearning, such as decreasing the performance and accuracy of theclassification. The balancing unit 120 and the refining unit 130 areused to implement the sample seed evaluation, and provide the corpusexpansion strategy based on the distribution of the sample seeds torefine the new sample seeds.

FIG. 7 shows the flow chart of determining whether to expand the sampleseeds in a certain class according to the balancing unit 120 of theinvention. Assuming there are N classes {C₁,C₂, . . . ,C_(n)} ofentities; the number of the sample seeds in these classes are {m₁,m₂, .. . ,m_(n)}; the threshold M_(t) represents the allowed minimum sampleseeds number in a certain class; r_(i) (1≦i≦n) represents the ratio ofthe number of the sample seeds in each of the classes to the sum of thenumber of the sample seeds in each of the other classes; the threshold Rrepresents the value that the ratio needs to reach.

Firstly, in step S700, the number {m₁,m₂, . . . ,m_(n)} of the sampleseeds in each of the classes {C₁,C₂, . . . ,C_(n)} in specific field arecounted, based on the sample seeds stored in the sample seed liststoring unit 155 and the new candidate sample seeds stored in the newcandidate sample seed list storing unit 115.

In step S701, i is set to 1.

In step S705, it is determined if m_(i)≦M_(t) is satisfied

When satisfied, it proceeds to the step S710, the information about thesample seeds in C_(i) class need to be expanded is stored in the corpusexpansion storing unit 135 as a class expansion strategy.

When not satisfied, it proceeds to the step S715, setting$r_{i} = \frac{m_{i}}{\sum\limits_{j \in {{{({1,{\ldots\quad N}})}\quad{and}\quad j} \neq i}}m_{j}}$

In step S720, it determines whether the r_(i)<R is satisfied. Whensatisfied, it proceeds to the step S710, the information about thesample seeds in C_(i) class need to be expanded is stored in the corpusexpansion storing unit 135 as a class expansion strategy.

When not satisfied, it proceeds to the step S725, setting i=i+1.

In step S730, it determines whether the i≦N is satisfied. Whensatisfied, the process ends.

Otherwise, it returns to the step S705 to continue the balancing processof the next class.

Through the above operation, the information about in which class thesample seeds need to be expanded is stored in the corpus expansionstoring unit 135, for being used when refining the candidate sampleseeds.

However, the problem of the decreasing of the performance of the machinelearning can not be sufficiently solved by storing the information aboutin which class the sample seeds need to be expanded, because the newcandidate sample seeds expanded in one class may be overlapped with thesample seeds in other class in feature space. Then the invention furtherrefines the new candidate sample seeds in the class which is needed tobe expanded so as to get the new sample seeds used when collectingcorpus next time.

Assuming there are N classes {C₁,C₂, . . . ,C_(n)} of entities; thenumber of the sample seeds in these classes are {m₁,m₂, . . . ,m_(n)}.And assuming it is found the class C_(k) need to be expanded through themethod in FIG. 7.

Through the process of FIG. 8, the information about which candidatesample seeds need to be deleted is obtained. As shown in FIG. 8, in stepS801, i is set as 1.

In step S805, it is determined whether C_(i) is not equal to C_(k). Whenthe two values equals to each other, it proceeds to the step S804.Otherwise, it proceeds to the step S810.

In step S810, the centroid S_(i) of the sample seeds in the class C_(i)stored in the sample seed list storing unit 155 is computed based on theformula: $S_{i} = {\frac{1}{m_{i}}{\sum\limits_{x \in C_{i}}V_{x}}}$

where, x represents each of the existed sample seeds in the class C_(i),V_(x) represents the feature vector of the sample seed x. Then, in stepS815, calculate the distance between each of the sample seeds x andS_(i): $d_{i} = \frac{1}{\cos\left( {V_{x},S_{i}} \right)}$

In step S820, the maximum distance d_(max) is obtained based on thecalculated d_(i), that is, d_(max)=max (d_(i))

In step S825, setting y is the new candidate sample seed in the classC_(k), V_(y) represents the feature vector value of the sample seed y.The distance between y and S_(i) is calculated using$d_{k} = \frac{1}{\cos\left( {V_{y},S_{i}} \right)}$

In step S830, d_(k) is compared to d_(max), when d_(k)<d_(max), it isdetermined y is the new candidate sample need to be deleted from the newcandidated sample seeds in the class C_(k), and stores the informationthe new candidate sample seed need to be deleted as a new sample seedexpansion strategy into the corpus expansion storing unit 135.

In step S835, it determined whether all the new candidate sample seedsin the class C_(k) are processed. If not processed, it returns to thestep S825. the step S825 and S830 are repeatedly executed until all thenew candidate sample seeds in the class C_(k) are processed.

When all the new candidate sample seeds are processed, it proceeds tothe step S840 toset i=i+1.

In step S845, it determines whether the i≦N is satisfied. Whensatisfied, it returns to the step S805 to continue balance the newcandidate sample seeds in the next class C_(i) to be expanded.

Otherwise, the process ends.

For the classes which need to be expanded stored in the corpus expansionstrategy storing unit 135 through the process in FIG. 7, the process inFIG. 8 are respectively processed so as to determine which new candidatesample seeds cannot be used as new sample seeds for each of the classC_(k) that need to be expanded.

FIG. 9 shows the operation procedure of the refining unit 130 whichrefines the new sample seeds based on the new sample seeds expansionstrategy stored in the corpus expansion strategy storing unit 135according to the process of FIG. 7 and 8.

Firstly, in step S901, the refining unit 130 deletes the new candidatesample seeds of the classes that does not need to be expanded from thenew candidate sample seed list storing unit, based on the classexpansion strategies stored in the corpus expansion strategy storingunit 135, to generate the new candidate sample seed list after classexpansion. In step S905, the refminig unit 130 deletes the new candidatesample seeds chosen in FIG. 8 from the new candidate sample seed list,to generate the new sample seed list.

In step S910, the new sample seed list is stored in the new sample seedlist storing unit 125, the new sample seeds in the new sample seed listis added into the sample seed list storing unit 155.

In addition, the contents in the new candidate sample seed list storingunit 115 are deleted to store the new candidate sample seeds to be usedwhen collecting corpus next time. The contents in the corpus expansionstrategy storing unit 135 are deleted to be used when generating the newcorpus expansion strategies.

In addition, as to the new sample seed list storing unit 125, thecontents thereof are deleted each time after the corpus collection unit101 collects corpora.

In addition, as to the contents in the corpus collection conditionstoring unit 140, an input device not shown may be used to manuallyadjust which corpus collection condition could be remained to be usedwhen collecting corpus, each time before the corpus collection unit 101collects corpus.

Through the above processes, both the sample seeds and corpora areexpanded.

Other Embodiments

In the above embodiment, the (new) candidate sample seed list storingunit and the corpus expansion strategy storing unit are used as temporalstoring unit to store the temporal data. It will be apparent for thepersons in the art to omit these temporal storing means by directlytransferring the temporal data from previous processing unit to thecorresponding next processing unit. In addition, The expanded sampleseeds stored in the sample seed list storing unit 155 are used ininformation extraction, knowledge mining or other natural languageprocessing applications.

Further, the expanded sample seeds stored in the sample seed liststoring unit 155 may be used by known sample seed annotator to pre-tagthe raw corpora stored in the raw corpora storing unit 105, or pre-tagthe corpora from other sources, so as to improve the annotationperformance of pre-tagging. Further, the tagged corpora may be storedfor using in information extraction, knowledge mining or other naturallanguage processing applications.

In addition, the corpus expansion apparatus according to the inventioncan be implemented by running a program by a processor, or by a logiccircuit, or the combination of program and logic circuit. In addition,the storing unit according to the invention can be implemented by areadable RAM or any other known storage means.

In addition, the above operation process can be implemented in themanner of program executable by computer stored in different medium, orby being download from communication network and being executed bycomputer. The medium for providing the program comprises for example,memory or memory unit, semiconductor, disk unit such as optical disk,magnetic disk and magneto-optic disk or any other medium suitable forstoring information.

The present invention may have a plurality of varied embodiments withinthe spirit and scope of the invention. Therefore, it will be appreciatedthat, the scope of protection of the invention is defined by thefollowing claims, but not limited to the specific embodiments.

While the embodiments of the invention have been described in detailwith reference to attached drawings, various changes and modificationsmay be made to the above embodiments without departing from the spiritand scope of the invention. Therefore, the scope of the invention isonly defined by the attached claims.

1. A corpus expansion system, comprising: a corpus collection unit, forcollecting corpus using sample seeds; a sample seed expansion unit, forgenerating new sample seeds, based on the sample seeds having been usedby the corpus collection unit and the collected corpora; a balancingunit, for determining a corpus expansion strategy based on all thesample seeds having been used by the corpus collection unit and the newsample seeds; and a refining unit, for refining the new sample seedsbased on the corpus expansion strategy.
 2. The corpus expansion systemaccording to claim 1, further comprising a sample seed storing unit forstoring all the sample seeds having been used by the corpus collectionunit, wherein said corpus collection unit uses the refined new sampleseeds to collect corpus and said refining unit adds the refmed newsample seeds into the sample seed storing unit.
 3. The corpus expansionsystem according to claim 1, wherein, said corpus expansion strategyincludes at least one of the information about the class in specificfield in which the sample seeds need to be expanded and the informationabout which sample seed need to be deleted in said new sample seeds,wherein said refining unit refines the new sample seeds based on theinformation.
 4. The corpus expansion system according to claim 1,wherein, said sample seed expansion unit comprises at least one of: alinguistic structure analysis based sample seed expansion unit forgenerating new sample seeds based on linguistic structure features and aseed annotator based sample seed expansion unit for generating newsample seeds based on known seed annotator.
 5. The corpus expansionsystem according to claim 4, wherein, further comprising a corpusstoring unit for storing the corpora collected by the corpus collectionunit.
 6. The corpus expansion system according to claim 4, wherein, thecorpus collection unit stops collecting corpus when a predefinedcondition reaches.
 7. The corpus expansion system according to claim 5,wherein, the predefined condition is when the number of corpora reachesa selected value, or when the ratio of the number of new sample seeds tothe number of the sample seeds when expanding corpus last time is lessthan a specific value, or combination thereof.
 8. A corpus expansionmethod, comprising: collecting corpus using sample seeds; generating newsample seeds, based on the sample seeds having been used and thecollected corpora; determining a corpus expansion strategy based on allthe sample seeds having been used and the new sample seeds; refining thenew sample seeds based on the corpus expansion strategy; and repeatingthe above steps until a predefined condition reaches.
 9. The corpusexpansion method according to claim 8, further including storing all thesample seeds having been used when collecting corpus.
 10. The corpusexpansion method according to claim 8, wherein, the step of generatingnew sample seeds comprises at least one of generating new sample seedsbased on linguistic structure features and generating new sample seedsbased on known seed annotator.
 11. The corpus expansion method accordingto claim 10, further comprising storing the collected corpora.
 12. Thecorpus expansion method according to claim 11, wherein, the predefinedcondition is when the number of corpora reaches a certain value, or whenthe ratio of the number of new sample seeds to the number of the sampleseeds when expanding corpus last time is less than a specific value. 13.The corpus expansion method according to claim 8, wherein, said corpusexpansion strategy includes at least one of the information about theclass in specific field in which the sample seeds need to be expandedand the information about which sample seed need to be deleted in saidnew sample seeds, wherein said reforming step refines the new sampleseeds based on the information.
 14. A program product for realizing themethod as described in claim
 8. 15. A storage medium for recording theprogram in claim 14.